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Google Professional-Cloud-Network-Engineer Exam With Confidence Using Practice Dumps

Exam Code:
Professional-Cloud-Network-Engineer
Exam Name:
Google Cloud Certified - Professional Cloud Network Engineer
Certification:
Google Cloud Platform
Vendor:
Google
Questions:
233
Last Updated:
Feb 5, 2026
Exam Status:
Stable
Google Professional-Cloud-Network-Engineer

Professional-Cloud-Network-Engineer: Google Cloud Platform Exam 2025 Study Guide Pdf and Test Engine

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Google Cloud Certified - Professional Cloud Network Engineer Questions and Answers

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Question 1

Your company's web server administrator is migrating on-premises backend servers for an application to GCP. Libraries and configurations differ significantly across these backend servers. The migration to GCP will be lift-and-shift, and all requests to the servers will be served by a single network load balancer frontend. You want to use a GCP-native solution when possible.

How should you deploy this service in GCP?

Options:

A.

Create a managed instance group from one of the images of the on-premises servers, and link this instance group to a target pool behind your load balancer.

B.

Create a target pool, add all backend instances to this target pool, and deploy the target pool behind your load balancer.

C.

Deploy a third-party virtual appliance as frontend to these servers that will accommodate the significant differences between these backend servers.

D.

Use GCP's ECMP capability to load-balance traffic to the backend servers by installing multiple equal-priority static routes to the backend servers.

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Question 2

Your company has recently installed a Cloud VPN tunnel between your on-premises data center and your Google Cloud Virtual Private Cloud (VPC). You need to configure access to the Cloud Functions API for your on-premises servers. The configuration must meet the following requirements:

Certain data must stay in the project where it is stored and not be exfiltrated to other projects.

Traffic from servers in your data center with RFC 1918 addresses do not use the internet to access Google Cloud APIs.

All DNS resolution must be done on-premises.

The solution should only provide access to APIs that are compatible with VPC Service Controls.

What should you do?

Options:

A.

Create an A record for private.googleapis.com using the 199.36.153.8/30 address range.

Create a CNAME record for *.googleapis.com that points to the A record.

Configure your on-premises routers to use the Cloud VPN tunnel as the next hop for the addresses you used in the A record.

Remove the default internet gateway from the VPC where your Cloud VPN tunnel terminates.

B.

Create an A record for restricted.googleapis.com using the 199.36.153.4/30 address range.

Create a CNAME record for *.googleapis.com that points to the A record.

Configure your on-premises routers to use the Cloud VPN tunnel as the next hop for the addresses you used in the A record.

Configure your on-premises firewalls to allow traffic to the restricted.googleapis.com addresses.

C.

Create an A record for restricted.googleapis.com using the 199.36.153.4/30 address range.

Create a CNAME record for *.googleapis.com that points to the A record.

Configure your on-premises routers to use the Cloud VPN tunnel as the next hop for the addresses you used in the A record.

Remove the default internet gateway from the VPC where your Cloud VPN tunnel terminates.

D.

Create an A record for private.googleapis.com using the 199.36.153.8/30 address range.

Create a CNAME record for *.googleapis.com that points to the A record.

Configure your on-premises routers to use the Cloud VPN tunnel as the next hop for the addresses you used in the A record.

Configure your on-premises firewalls to allow traffic to the private.googleapis.com addresses.

Question 3

You manage two VPCs: VPC1 and VPC2, each with resources spread across two regions. You connected the VPCs with HA VPN in both regions to ensure redundancy. You’ve observed that when one VPN gateway fails, workloads that are located within the same region but different VPCs lose communication with each other. After further debugging, you notice that VMs in VPC2 receive traffic but their replies never get to the VMs in VPC1. You need to quickly fix the issue. What should you do?

Options:

A.

Q Enable regional dynamic routing mode in VPC2.

B.

Q Enable global dynamic routing mode in VPC1.

C.

Q Enable global dynamic routing mode in VPC2.

D.

Q Enable regional dynamic routing mode in VPC1.

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